DocumentCode
1421525
Title
Cache-Based Memory Copy Hardware Accelerator for Multicore Systems
Author
Duarte, Filipa ; Wong, Stephan
Author_Institution
Ultra Low Power DSP Group, IMEC/Holst Centre, Eindhoven, Netherlands
Volume
59
Issue
11
fYear
2010
Firstpage
1494
Lastpage
1507
Abstract
In this paper, we present a new architecture of the cache-based memory copy hardware accelerator in a multicore system supporting message passing. The accelerator is able to accelerate memory data movements, in particular memory copies. We perform an analytical analysis based on open-queuing theory to study the utilization of our accelerator in a multicore system. In order to correctly model the system, we gather the necessary information by utilizing a full-system simulator. We present both the simulation results and the analytical analysis. We demonstrate the advantages of our solution based on a full-system simulator utilizing several applications: the STREAM benchmark and the receiver-side of the TCP/IP stack. Our accelerator provides speedups from 2.96 to 4.61 for the receiver-side of the TCP/IP stack, reduces the number of instructions from 26 percent to 44 percent and achieves a higher cache hit rate. Utilizing the analytical analysis, our accelerator reduces in the average number of cycles executed per instruction up to 50 percent for one of the CPUs in the multicore system.
Keywords
digital simulation; message passing; multiprocessing systems; storage management; STREAM benchmark; TCP/IP stack receiver-side; cache-based memory copy hardware accelerator; full-system simulator; message passing; multicore systems; open-queuing theory; Acceleration; Analytical models; Central Processing Unit; Hardware; Message passing; Multiprocessing systems; Payloads; Performance analysis; Protocols; TCPIP; Hardware accelerator; TCP/IP; cache; multicore; open-queuing theory.;
fLanguage
English
Journal_Title
Computers, IEEE Transactions on
Publisher
ieee
ISSN
0018-9340
Type
jour
DOI
10.1109/TC.2010.41
Filename
5416684
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